From 1 - 10 / 269
  • This dataset represents the landslide boundaries present at or near the surface and comprises arcs with attributes describing the type of contact, its accuracy and exposure. The dataset is part of the Geology of the Pukekohe area collection produced by GNS Science. The mapping frame within which the features have been observed is defined as surface geology (i.e. the bedrock and superficial deposits that are exposed at the topographic surface or would be visible if the overlying soil was removed). The data structure complies with the GeoSciML 4.1 standard, where relevant, and uses the appropriate CGI Controlled Vocabularies. This dataset forms part of Bland KJ, Townsend DB, Hill MP, Jones KE (compilers). 2023. Geology of the Pukekohe area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 12b). For more information on data, distribution options and formats visit https://doi.org/10.21420/ZB5N-HB42. Additional products associated with this dataset are available from https://doi.org/10.21420/Y3CC-PB81.

  • This dataset contains the bounding arcs to the 1:1 000 000 geological units data for New Zealand. The dataset is a product of the Geological Map of New Zealand 1: 1 000 000 project and was produced by GNS Science. It represents the most current mapping of the geology of New Zealand in a single dataset at a scale of 1:1 000 000. The dataset is stored in an ESRI vector geodatabase and exported to ArcGIS Server. The dataset comprises arcs with each arc having attributes describing the type of contact, its name, exposure and accuracy. It complies with the GeoSciML Portrayal standard for ContactView. The outcrop surface (map horizon) on which the features are mapped is the Earth surface. The fields required by the GeoSciML Portrayal standard were populated using the CGI Controlled Vocabulary (2012-11). The data should not be used at scales beyond that for which it was prepared. The spatial accuracy is estimated to be no better than +/- 1000 m. The dataset is available for purchase as feature classes in ESRI file geodatabase and shapefile GIS formats and freely consumable as a layer in Web Map Services and Web Feature Services from ArcGIS Server.

  • This dataset represents the labels associated with the faults and comprises annotation which stores the fault name. The dataset is part of the Geological Map of New Zealand (Mainland) collection produced by GNS Science. This dataset forms part of Heron, D.W. (custodian) 2023: Geological Map of New Zealand 1:250 000 (4th ed.) [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 1). For more information on data, distribution options and formats visit https://doi.org/10.21420/5XTJ-5718. To obtain the data visit https://doi.org/10.21420/8BEH-6P24.

  • Mineral resource trace features are represented with line features and have attributes describing the commodity available, host geological feature, type of working and lithology, if known. The data layer is part of the 'Geology of the Middlemarch area' 1:50 000 dataset covering a part of of East Otago around Middlemarch township.

  • This dataset represents the labels associated with the geological units and comprises annotation which stores the text code developed for use on the map face. The dataset is part of the Geology of the Napier-Hastings urban area collection produced by GNS Science. This dataset forms part of Lee JM, Begg JG, Bland KJ. 2020. Geological map of the Napier-Hastings urban area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 7a). For more information on data, distribution options and formats visit https://doi.org/10.21420/QCQT-G461. Additional products associated with this dataset are available from https://doi.org/10.21420/4CR3-9M83.

  • This dataset has been superseded by a new edition (3rd edition, 2020) available here: https://data.gns.cri.nz/metadata/srv/eng/catalog.search#/metadata/5F6780CB-4135-4204-A2C8-50DD74B0466F. This 2nd edition has been kept as a historical archive and is available on request.. This dataset is the formlines data for New Zealand. The dataset is a product of the QMAP Geological Map of New Zealand Project and was produced by GNS Science. At the time of publication it represented the most current mapping of formlines for New Zealand in a single dataset at a scale of 1:250 000. The dataset is stored in an ESRI vector geodatabase and exported to ArcGIS Server. The dataset comprises arcs with each arc having an attribute describing the accuracy of location. The data structure complies with the GeoSciML 4.1 standard where relevant and uses the appropriate CGI Controlled Vocabularies. The mapping frame is defined as 'top of basement'.

  • This dataset represents the faults present at or near the surface and comprises arcs with attributes describing the type of fault, its name, age and activity, and the sense of movement and cumulative slip. The dataset is part of the Geology of the Pukekohe area collection produced by GNS Science. The mapping frame within which the features have been observed is typically defined as surface geology (i.e. the bedrock and superficial deposits that are exposed at the topographic surface or would be visible if the overlying soil was removed) but the mapping frame for some concealed features is bedrock (i.e. the solid rock that may either be exposed at the topographic surface or covered by other unconsolidated deposits). The data structure complies with the GeoSciML 4.1 standard for ShearDisplacementStructureView and uses the appropriate CGI Controlled Vocabularies. This dataset forms part of Bland KJ, Townsend DB, Hill MP, Jones KE (compilers). 2023. Geology of the Pukekohe area [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 12b). For more information on data, distribution options and formats visit https://doi.org/10.21420/ZB5N-HB42. Additional products associated with this dataset are available from https://doi.org/10.21420/Y3CC-PB81.

  • This dataset represents the labels associated with the resources and comprises annotation which stores the commodity associated with the site. The dataset is part of the Geological Map of New Zealand (Mainland) collection produced by GNS Science. This dataset forms part of Heron, D.W. (custodian) 2023: Geological Map of New Zealand 1:250 000 (4th ed.) [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 1). For more information on data, distribution options and formats visit https://doi.org/10.21420/5XTJ-5718. To obtain the data visit https://doi.org/10.21420/8BEH-6P24.

  • This dataset represents the textural metamorphic boundaries present at or near the surface and comprises arcs with attributes describing the type of contact, its accuracy and exposure. Textural metamorphic boundaries apply only to Late Paleozoic-Mesozoic greywacke terrane rocks. The dataset is part of the Geological Map of New Zealand (Chatham Islands) collection produced by GNS Science. The mapping frame within which the features have been observed is defined as surface geology (i.e. the bedrock and superficial deposits that are exposed at the topographic surface or would be visible if the overlying soil was removed). The data structure complies with the GeoSciML 4.1 standard, where relevant, and uses the appropriate CGI Controlled Vocabularies. This dataset forms part of Heron, D.W. (custodian) 2023: Geological Map of New Zealand 1:250 000 (4th ed.) [digital data]. Lower Hutt (NZ): GNS Science. (GNS Science geological map; 1). For more information on data, distribution options and formats visit https://doi.org/10.21420/5XTJ-5718.

  • This dataset is the 1:250 000 geological units data for southern Victoria Land, Antarctica between 76°40' S and 78°45' S. The dataset is a product of the QMAP 1: 250 000 mapping project and was produced by GNS Science. It represents a synthesis of the current and historical mapping of the geology of this area in a single dataset at a scale of 1:250 000. The dataset is stored in an ESRI vector geodatabase and exported to ArcGIS Server. The dataset comprises polygons with each polygon having attributes describing the type of geological unit, its content, name and age. It complies with the GeoSciML Portrayal standard for GeologicUnitView. The outcrop surface (map horizon) on which the features are mapped is the Earth surface. The fields required by the GeoSciML Portrayal standard were populated using the CGI Controlled Vocabulary (2012-11).